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Transcript
Introduction: Organic Chemistry
• Cells are 70-95% water; the rest consists mostly of
carbon-based compounds.
• Proteins, DNA/RNA, carbohydrates, and lipids,
are all composed of carbon atoms bonded to each
other and to atoms of other elements.
• These other elements commonly include hydrogen (H),
oxygen (O), nitrogen (N), sulfur (S), and phosphorus
(P). These can be combined with C to build a wide
variety of organic compounds.
Carbon atoms are the most versatile
building blocks of molecules
• With a total of 6 electrons, a carbon atom has 2 in the
first shell and 4 in the second shell.
• Carbon has little tendency to form ionic bonds by loosing
or gaining 4 electrons.
• Instead, carbon usually completes its valence shell by
sharing electrons with other atoms in four covalent bonds.
• This tetravalence by carbon makes large, complex
molecules possible.
• The electron configuration of carbon gives it
compatibility to form covalent bonds with many
different elements.
• The valences of carbon and its partners dictates the
structure of organic molecules.
Octet rule--8 e-
Variations in carbon skeletons contribute to the diversity of organic molecules
Hydrocarbons
contain only H and C
store energy, fats, fossil fuels
hydrophobic, nonpolar
• Isomers are compounds that have the same
molecular formula but different structures and
therefore different chemical properties.
• The two butanes in this figure are structural
isomers, molecules with the same molecular
formula (C4H10) but differ in the covalent
arrangement of atoms (straight vs. branched
skeleton).
• Geometric isomers are compounds with the same
covalent partnerships that differ in their spatial
arrangement around a carbon-carbon double bond.
• The double bond does not allow atoms to rotate freely
around the bond axis.
Cis form
Trans form
• Enantiomers are molecules that are mirror images
of each other
• Enantiomers are possible if there are four different atoms
or groups of atoms bonded to a carbon.
• It is possible to arrange the four groups in space in two
different ways that are mirror images.
• They are like
left-handed and
right-handed
versions.
• Usually one is
biologically active,
the other inactive.
• Even the subtle structural differences in two
enantiomers have important functional significance
because of emergent properties from the specific
arrangements of atoms.
• One enantiomer of the drug thalidomide reduced
morning sickness, its desired effect, but the other
isomer caused severe
birth defects.
• The L-Dopa isomer
is an effective treatment
of Parkinson’s disease,
but the D-Dopa isomer
is inactive.
Functional groups contribute to the
molecular diversity of life
Functional groups – chemical groups that replace one
or more H atoms of the carbon skeleton of a
hydrocarbon
Behave consistently from one organic molecule to
another.
Number and arrangement of functional groups help
give each molecule its unique properties.
Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings
• The basic structure of testosterone (male hormone)
and estradiol (female hormone) is identical.
• Both are steroids with four fused carbon rings, but
they differ in the functional groups attached to the
rings.
• These then interact with different targets in the body.
• 6 functional groups, all hydrophilic
• In a hydroxyl group (-OH), a hydrogen atom
forms a polar covalent bond with an oxygen which
forms a polar covalent bond to the carbon skeleton.
• Because of these polar covalent bonds hydroxyl groups
improve the water solubility of organic molecules.
• Organic compounds with hydroxyl groups are alcohols
and their names typically end in -ol.
• A carbonyl group (-CO) consists of an oxygen
atom joined to the carbon skeleton by a double
bond.
• If the carbonyl group is on the end of the skeleton, the
compound is an aldelhyde.
• If not, then the compound is a ketone.
• Isomers with aldehydes versus ketones have different
properties.
• A carboxyl group (-COOH) consists of a carbon
atom with a double bond with an oxygen atom and a
single bond to a hydroxyl group.
• Compounds with carboxyl groups are carboxylic acids.
• A carboxyl group acts as an acid because the combined
electronegativities of the two adjacent oxygen atoms
increase the dissociation of hydrogen as an ion (H+).
• An amino group (-NH2) consists of a nitrogen atom
attached to two hydrogen atoms and the carbon
skeleton.
• Organic compounds with amino groups are amines.
• The amino group acts as a base because amino groups
can pick up a hydrogen ion (H+) from the solution.
• Amino acids, the building blocks of proteins, have amino
and carboxyl groups.
• A sulfhydryl group (-SH) consists of a sulfur
atom bonded to a hydrogen atom and to the
backbone.
• This group resembles a hydroxyl group in shape.
• Organic molecules with sulfhydryl groups are thiols.
• Sulfhydryl groups help stabilize the structure of
proteins.
• A phosphate group (-OPO32-) consists of
phosphorus bound to four oxygen atoms (three with
single bonds and one with a double bond).
• A phosphate group connects to the carbon backbone via
one of its oxygen atoms.
• Phosphate groups are anions with two negative charges
as two hydrogens have dissociated from the oxygen
atoms.
• One function of phosphate groups is to transfer energy
between organic molecules.